S. De, A. R. Abid, J. D. Asmussen, L. Ben Ltaief, K. Sishodia, A. Ulmer, H. B. Pedersen, S. R. Krishnan, M. Mudrich
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Fragmentation of Water Clusters Formed in Helium Nanodroplets by Charge Transfer and Penning Ionization
Helium nanodroplets ("HNDs") are widely used for forming tailor-made clusters
and molecular complexes in a cold, transparent, and weakly-interacting matrix.
Characterization of embedded species by mass spectrometry is often complicated
by fragmentation and trapping of ions in the HNDs. Here, we systematically
study fragment ion mass spectra of HND-aggregated water and oxygen clusters
following their ionization by charge transfer ionization ("CTI") and Penning
ionization ("PEI"). While the efficiency of PEI of embedded clusters is lower
than for CTI by about factor 10, both the mean sizes of detected water clusters
and the relative yields of unprotonated cluster ions are significantly larger,
making PEI a ``soft ionization'' scheme. However, the tendency of ions to
remain bound to HNDs leads to a reduced detection efficiency for large HNDs
containing $>10^4$ helium atoms. These results are instrumental for determining
optimal conditions for mass spectrometry and photoionization spectroscopy of
molecular complexes and clusters aggregated in HNDs.
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